The fields of relativity and quantum mechanics have been extensively studied and have provided remarkable insights and predictive power in understanding the physical world. The theory of relativity describes the behavior of spacetime and gravity, while quantum mechanics deals with the behavior of particles on the atomic and subatomic scale. Both theories have been extensively tested and verified through experiments.
Scientists and researchers are constantly exploring and proposing new ideas and theories to improve our understanding of the universe. However, any new theory or principle must be rigorously tested, mathematically consistent, and consistent with experimental observations in order to be considered a valid scientific framework.
If the "great XD Dongfang unitary principle" is a new or relatively unknown proposal, it would require detailed examination, analysis, and scrutiny by the scientific community to evaluate its merits and determine its validity. Scientists rely on rigorous peer review, empirical evidence, and mathematical consistency to assess the viability of new ideas and theories.
It's important to approach any scientific claims or proposed principles with a critical mindset, evaluate the evidence supporting them, and consider the consensus and current understanding within the scientific community. Science is an ongoing process of inquiry and refinement, and new ideas are subject to scrutiny and revision based on empirical evidence and logical consistency.